ELECTROPHORETIC DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME
An electrophoretic display device includes a backplane structure, a buffer layer, a spacer wall, a display medium, an upper substrate and an upper electrode. The backplane structure includes a lower substrate, a transistor formed on the lower substrate, and a lower electrode electrically connected to the transistor. The buffer layer is disposed on the backplane structure. The spacer wall is disposed on the buffer layer and forms a closed pattern. The display medium is disposed in the closed pattern. The display medium includes an electrophoretic medium and a plurality of electrophoretic particles dispersed in the electrophoretic medium. The upper substrate is disposed on the spacer wall and the display medium. The upper electrode is disposed between the upper substrate and the spacer wall.
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This application claims the benefit of Taiwan application Serial No. 110103810, filed Feb. 2, 2021, the subject matter of which is incorporated herein by reference.
BACKGROUND OF THE INVENTION Field of the InventionThe invention relates in general to a display device and a method for manufacturing the same, and more particularly to an electrophoretic display device and a method for manufacturing the same.
Description of the Related ArtRecently, electrophoretic display devices have become widely used electronic products. Generally speaking, an electrophoretic display device may include a backplane structure and a front plane laminate attached to the backplane structure. The backplane structure includes a transistor array substrate and a lower electrode electrically connected to the transistor. The front plane laminate includes an adhesive layer disposed on a release layer, a display medium layer (including electrophoretic medium and electrophoretic particles) and an upper electrode. After the manufacturing of the front plane laminate is finished, the front plane laminate is torn off from the release layer, and the front plane laminate is attached to the backplane structure through the adhesive layer to form an electrophoretic display device.
However, the above-mentioned manufacturing process for forming an electrophoretic display device is quite complicated, time-consuming, and requires high manufacturing costs. Therefore, there is still an urgent need to develop an electrophoretic display device and a method for manufacturing the same that can improve the above-mentioned problems.
SUMMARY OF THE INVENTIONAccording to an embodiment of the present invention, an electrophoretic display device is provided. The electrophoretic display device includes a backplane structure, a buffer layer, a spacer wall, a display medium, an upper substrate and an upper electrode. The backplane structure includes a lower substrate, a transistor formed on the lower substrate, and a lower electrode electrically connected to the transistor. The buffer layer is disposed on the backplane structure. The spacer wall is disposed on the buffer layer and forms a closed pattern. The display medium is disposed in the closed pattern. The display medium includes an electrophoretic medium and a plurality of electrophoretic particles dispersed in the electrophoretic medium. The upper substrate is disposed on the spacer wall and the display medium. The upper electrode is disposed between the upper substrate and the spacer wall.
According to another embodiment of the present invention, a method for manufacturing an electrophoretic display device is provided. The method includes the following steps. A backplane structure is provided. The backplane structure includes a lower substrate, a transistor formed on the lower substrate, and a lower electrode electrically connected to the transistor. A buffer layer is deposited on the backplane structure. A spacer wall is formed on the buffer layer by a lithography process, and the spacer wall forms a closed pattern. A display medium is filled in the closed pattern, wherein the display medium includes an electrophoretic medium and a plurality of electrophoretic particles dispersed in the electrophoretic medium. An encapsulation layer is formed on the spacer wall and the display medium. After forming an upper electrode on an upper substrate, a structure formed by the upper electrode and the upper substrate is attached to the encapsulation layer.
The above and other aspects of the invention will become better understood with regard to the following detailed description of the preferred but non-limiting embodiment(s). The following description is made with reference to the accompanying drawings.
Referring to
The backplane structure 100B includes a lower substrate 100, a plurality of transistors T formed on the lower substrate 100, and a lower electrode 110 electrically connected to the transistor T. The lower substrate 100 is, for example, a glass substrate. The backplane structure 100B is, for example, a thin film transistor array substrate. The structure and manufacturing process of the backplane structure 100B are the same as or similar to that of the conventional thin film transistor array substrate, and will not be described in detail herein. In short, the lower substrate 100 has an upper surface 100s, and the backplane structure 100B includes a first conductive layer 101, a first insulating layer 103, a semiconductor layer 105, a second conductive layer 107, a protective layer 108, a second insulating layer 109 and a lower electrode 110 sequentially stacked on the upper surface 100s. The second insulating layer 109 has a contact hole 109h, and the contact hole 109h exposes a portion of the second conductive layer 107, so that the lower electrode 110 can be electrically connected to the transistor T. The materials of the first conductive layer 101 and the second conductive layer 107 may include metals, such as aluminum, aluminum alloy, copper, copper alloy, silver, silver alloy, or other suitable metals. The material of the first insulating layer 103 may include nitride, such as silicon nitride or other suitable materials. The material of the second insulating layer 109 may include an organic material. The material of the lower electrode 110 may include an opaque conductive material, such as molybdenum (Mo), molybdenum nitride (MoN), molybdenum niobium (MoNb) or other suitable materials. In other embodiments, an indium tin oxide (ITO) layer can be added on the lower electrode. The size of the indium tin oxide layer is sufficient to cover the lower electrode, so the indium tin oxide layer can protect the lower electrode. It has anti-corrosion function. In the present embodiment, since the buffer layer 122 is provided on the lower electrode 110 (detailed below), the buffer layer 122 has the function of protecting the lower electrode 110 and can prevent the lower electrode 110 from being corroded, so there is no need to additionally provide an indium tin oxide layer on the lower electrode 110. In other embodiments, the material of the lower electrode 110 may also be an indium tin oxide (ITO) layer. The lower electrode 110 is, for example, a pixel electrode.
The buffer layer 122 may be disposed on the backplane structure 100B, for example, conformal to the profile of the upper surface of the backplane structure 100B, covering the second insulating layer 109 and the lower electrode 110. In the present embodiment, the thickness of the buffer layer 122 in the second direction remains unchanged, but the present invention is not limited thereto. The material of the buffer layer 122 may include a dielectric material, and the thickness is, for example, between tens of nanometers to hundreds of nanometers. In some embodiments, the buffer layer 122 is made by processes, for example, thin film deposition, photolithography, etching, and photoresist removal.
The spacer wall 124 is disposed on the buffer layer 122 and forms a closed pattern 124P (shown in
The display medium DM is disposed in the closed pattern 124P formed by the spacer wall 124. The display medium DM includes an electrophoretic medium 128 and a plurality of electrophoretic particles 126 dispersed in the electrophoretic medium 128. The electrophoretic medium 128 is, for example, liquid or gas. The electrophoretic particles 126 can be charged particles of different colors, such as black particles 1261, white particles 1262, and red particles 1263. However, the electrophoretic particles 126 of the present invention are not limited thereto. The electrophoretic particles 126 can be arbitrarily selected from a group consisted of a plurality of red particles, a plurality of yellow particles, a plurality of blue particles, a plurality of green particles, a plurality of black particles, and a plurality of white particles.
In the present embodiment, the encapsulation layer 130 is disposed on the spacer wall 124 and the display medium DM, and is disposed between the upper electrode 132 and the spacer wall 124, but the present invention is not limited thereto. In other embodiments, the electrophoretic display device 10 may not include the encapsulation layer 130. When the electrophoretic display device 10 omits the arrangement of the encapsulation layer 130, it can be replaced by coating the encapsulation sealant on the surroundings (not shown).
The upper substrate 134 is disposed on the spacer wall 124 and the display medium DM. The upper electrode 132 and the encapsulation layer 130 are disposed between the upper substrate 134 and the spacer wall 124, and between the upper substrate 134 and the display medium DM. In some embodiments, the upper substrate 134 is, for example, a flexible plastic substrate or a glass substrate. The material of the flexible plastic substrate may include polyethylene terephthalate (PET).
In the electrophoretic display device 10 in the present application, the transistors T, the lower electrode 110, the buffer layer 122, the display medium DM, the spacer wall 124 and other structures are all manufactured on the lower substrate 100, which belong to in-cell electrophoresis display device. Compared with the comparative example in which the front plane laminate is peeled off from the release layer after the structure of the front plane laminate is formed, and the adhesive layer of the front plane laminate and the back plane structure are pressed together, the manufacturing processes of all the structures of the electrophoretic display device 10 in the present application are integrated on a single substrate (that is, the lower substrate 100), the process efficiency is better, and the problem of complicated processes, the time-consuming issue and high cost can be improved.
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In the top view as shown in
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In the present embodiment, an angle α1 formed between the spacer wall 124 and an upper surface 100s of the lower substrate 100 is 90 degrees, and a width W1 of the upper surface 124s of the spacer wall 124 may be the same as a width W2 of a lower surface 124f of the spacer wall 124 (as shown in
After finishing the process shown in
In the top view as shown in
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In the present embodiment, the encapsulation layer 130 is disposed on the spacer wall 224 and the display medium DM, and is disposed between the upper electrode 132 and the spacer wall 224, but the present invention is not limited thereto. In other embodiments, the electrophoretic display device 20 may not include the encapsulation layer 130. When the electrophoretic display device 20 omits the arrangement of the encapsulation layer 130, it can be replaced by coating the encapsulation sealant on the surroundings (not shown).
In the manufacturing methods of the electrophoretic display devices 10 and 20 of the present invention, after forming the backplane structure 100B including the lower substrate 100, the transistors T, the lower electrode 110 and other elements, the structures including the buffer layer 122, the display medium DM, the spacer wall 124 and the like are directly formed on the backplane structure 100B, that is, the above-mentioned process steps are all manufactured on the lower substrate 100 to form an in-cell electrophoretic display device. Compared with the comparative example in which the front plane laminate is torn off from the release layer after the structure of the front plane laminate is formed, and the adhesive layer of the front plane laminate and the back plane structure are pressed together, the methods for manufacturing the electrophoretic display devices 10 and 20 of the present invention omit the step of forming an adhesive layer on the release layer, the step of peeling the front plane laminate including the adhesive layer from the release layer, and the step of bonding the front plane laminate and the backplane structure to each other through the adhesive layer are omitted. Therefore, in the methods for manufacturing the electrophoretic display devices 10 and 20 of the present application, the manufacturing processes of all the structures are integrated on a single substrate (that is, the lower substrate 100), and the process efficiency is better, which can improve the problems of complicated, time-consuming and high-cost manufacturing process.
Referring to
In an embodiment, the spacer wall 124 and the sidewalls 142 can be finished in the same process, and the material of the spacer wall 124 can be the same as the material of the sidewalls 142. For example, in the step of forming the spacer wall 124 on the buffer layer 122 (as the steps shown in
In a further embodiment, the spacer wall 124 and the sidewalls 142 can be finished under different manufacturing processes, and the material of the spacer wall 124 can be the same or different from the material of the side walls 142. For example, after the step of forming the spacer wall 124 on the buffer layer 122 (such as the steps shown in
Compared with the embodiment without the sidewalls 142, since the electrophoretic display device 30 is further provided with the sidewalls 142 in the non-display area AB, the display medium DM can be more effectively prevented from overflowing to the outside during the manufacturing process of the electrophoretic display device 30 (for example, in the step of filling the display medium DM).
Referring to
In an embodiment, the spacer wall 224 and the sidewalls 242 can be finished in the same manufacturing process, and the material of the spacer wall 224 can be the same as the material of the sidewalls 242. For example, in the step of forming the spacer wall 224 on the buffer layer 122 (as shown in
In a further embodiment, the spacer wall 224 and the sidewalls 242 can be finished under different manufacturing processes, and the material of the spacer wall 224 can be the same or different from the material of the sidewalls 242. For example, after the step of forming the spacer wall 224 on the buffer layer 122 (such as the steps shown in
Compared with the embodiment without the sidewalls 242, since the electrophoretic display device 40 is further provided with the sidewalls 242 in the non-display area AB, the display medium DM can be more effectively prevented from overflowing to the outside during the manufacturing process of the electrophoretic display device 40 (for example, in the step of filling the display medium DM).
According to an embodiment of the present invention, an electrophoretic display device and a method for manufacturing the same are provided. The electrophoretic display device includes a backplane structure, a buffer layer, a spacer wall, a display medium, an upper substrate and an upper electrode. The backplane structure includes a lower substrate, a transistor formed on the lower substrate, and a lower electrode electrically connected to the transistor. The buffer layer is disposed on the backplane structure. The spacer wall is disposed on the buffer layer and forms a closed pattern. The display medium is disposed in the closed pattern. The display medium includes an electrophoretic medium and a plurality of electrophoretic particles dispersed in the electrophoretic medium. The upper substrate is disposed on the spacer wall and the display medium. The upper electrode is disposed between the upper substrate and the spacer wall.
Compared with the comparative example in which the front plane laminate is torn off from the release layer after the structure of the front plane laminate is formed, and the adhesive layer of the front plane laminate and the backplane structure are pressed together, since all structures (such as the backplane structure, a buffer layer, a spacer wall, and a display medium) of the electrophoretic display device in the present application are processed and integrated on a single substrate (that is, the lower substrate), and the process efficiency is better, which can improve the problems of complicated, time-consuming and high-cost process. In addition, compared with the comparative example without a buffer layer, since the electrophoretic display device of the present application has a buffer layer, the buffer layer can provide better adhesion between the spacer wall and the backplane structure, so that the spacer wall is not easily peeled off from the backplane structure. Thus, the structure of the electrophoretic display device of the present application can be more stable and can have better display quality.
While the invention has been described by way of example and in terms of the preferred embodiment(s), it is to be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures.
Claims
1. An electrophoretic display device, comprising:
- a backplane structure, comprising a lower substrate, a transistor formed on the lower substrate, and a lower electrode electrically connected to the transistor;
- a buffer layer, disposed on the backplane structure;
- a spacer wall, disposed on the buffer layer and forming a closed pattern;
- a display medium, disposed in the closed pattern, wherein the display medium comprises an electrophoretic medium and a plurality of electrophoretic particles dispersed in the electrophoretic medium;
- an upper substrate, disposed on the spacer wall and the display medium; and
- an upper electrode, disposed between the upper substrate and the spacer wall.
2. The electrophoretic display device according to claim 1, wherein the closed pattern is a polygon in a top view.
3. The electrophoretic display device according to claim 2, wherein the spacer wall forms a plurality of the closed patterns, and shapes of the closed patterns are the same as each other.
4. The electrophoretic display device according to claim 1, wherein the spacer wall forms a plurality of the closed patterns, and the closed patterns are formed by arrangements of at least one type of polygons in a top view.
5. The electrophoretic display device according to claim 1, wherein the lower substrate has an upper surface, and an angle between the spacer wall and the upper surface is between 80 degrees and 90 degrees.
6. The electrophoretic display device according to claim 1, wherein the buffer layer is disposed between the spacer wall and the lower electrode.
7. The electrophoretic display device according to claim 1, wherein the spacer wall directly contacts the buffer layer.
8. The electrophoretic display device according to claim 1, wherein a material of the spacer wall comprises a photoresist material, and a material of the buffer layer comprises a dielectric material.
9. The electrophoretic display device according to claim 1, wherein the backplane structure comprises a display area and a non-display area, the non-display area surrounds the display area, and the spacer wall corresponds to the display area.
10. The electrophoretic display device according to claim 1, wherein the buffer layer extends in the display area and the non-display area, and the spacer wall extends from the display area to a portion of the non-display area.
11. The electrophoretic display device according to claim 10, further comprising at least one sidewall, wherein the at least one sidewall is disposed on the buffer layer in the non-display area and surrounds the spacer wall.
12. The electrophoretic display device according to claim 11, wherein a material of the spacer wall and a material of the sidewall are the same as each other.
13. The electrophoretic display device according to claim 11, wherein a material of the spacer wall and a material of the sidewall are different from each other.
14. The electrophoretic display device according to claim 11, further comprising an encapsulation layer, wherein the encapsulation layer is disposed on the spacer wall and the display medium, and is disposed between the upper electrode and the spacer wall.
15. A method for manufacturing an electrophoretic display device, comprising:
- providing a backplane structure comprising a lower substrate, a transistor formed on the lower substrate, and a lower electrode electrically connected to the transistor;
- depositing a buffer layer on the backplane structure;
- forming a spacer wall on the buffer layer by a lithography process, and the spacer wall forming a closed pattern;
- filling a display medium in the closed pattern, wherein the display medium comprises an electrophoretic medium and a plurality of electrophoretic particles dispersed in the electrophoretic medium;
- forming an encapsulation layer on the spacer wall and the display medium; and
- after forming an upper electrode on an upper substrate, attaching a structure formed by the upper electrode and the upper substrate to the encapsulation layer.
16. The method for manufacturing the electrophoretic display device according to claim 15, wherein the spacer wall forms a plurality of the closed patterns, and the closed patterns are formed by arrangements of at least one type of polygons in a top view.
17. The method for manufacturing the electrophoretic display device according to claim 15, wherein a material of the spacer wall comprises a photoresist material, and a material of the buffer layer comprises a dielectric material.
18. The method for manufacturing the electrophoretic display device according to claim 15, wherein the backplane structure comprises a display area and a non-display area, the non-display area surrounds the display area, the buffer layer extends in the display area and the non-display area, and the spacer wall extends from the display area to a portion of the non-display area;
- in the step of forming the spacer wall on the buffer layer, further comprising forming at least one sidewall in the non-display area at the same time, wherein the at least one sidewall is disposed on the buffer layer and surrounds the spacer wall.
19. The method for manufacturing the electrophoretic display device according to claim 18, wherein a material of the spacer wall is the same as a material of the at least one sidewall.
20. The method for manufacturing the electrophoretic display device according to claim 15, wherein the backplane structure comprises a display area and a non-display area, the non-display area surrounds the display area, the buffer layer extends in the display area and the non-display area, and the spacer wall extends from the display area to a portion of the non-display area;
- after the step of forming the spacer wall on the buffer layer, forming at least one sidewall in the non-display area by another lithography process, wherein the at least one sidewall is disposed on the buffer layer and surrounds the spacer wall.
Type: Application
Filed: Jan 14, 2022
Publication Date: Aug 4, 2022
Applicant: E Ink Holdings Inc. (Hsinchu)
Inventors: Shu-Fen TSAI (Zhubei City), Hsien-Yi HSIAO (Hsinchu City), Ming-Kai CHUANG (Zhubei City), Puru Howard SHIEH (Hsinchu City)
Application Number: 17/576,206